Machine for finishing and cooling stereotype-plates.



H. A. W. WOOD. MACHINE FOR FINISHING AND COOLING STEREOTYPE PLATES.

APPLICATION FILED APR. 6, I906- Patented June 11, 1918.

lava/Ye a a iT-resses H. A. W. WOOD. MACHINE FOR FINISHING AND COOLING STEREOTYPE PLATES.

APPLICATION FILED APR. 6.1906.

Iatnnfvd June 11, 1918.

I3 SHEETS-SHEET 2- mama L' N i H. A. W. WOOD. MACHINE FOB FINISHING AND COOLING STEREOTYPE PLATES.

APPLICATION FILED APR; 6. I906.

Patented June 1L 1918.

13 SHEETS-SHEET 3.

e wild &

H. A. W. WOOD.

MACHINE FOB FINISHING AND COOLING STEREOTYPE PLATES.

APPLICATION FILED APR. 6. 1906.

1 269,30 Patented June 11, 1918.

13 SHEETS-SHEET 4- 1a SHEETS-SHEET 5.

Iatvnred June 11, 1918.

H. A. W. WOOD.

MACHINE FOR FINISHING AND COOLING SIEREOTYPE PLATES.

APPLICATION FILED APR. 6. I906.

V AI APPLICATION FILED APR. 6. I906.

Pat'unfed June 11, 1918.

I3 SHEETS--SHEET 6.

H. A. W. WOOD.

MACHINE FOR FINISHING AND COOLING SIEREOTYPE PLATES.

APPLICATION FILED APR. 6. I906- 1,269,239, Patented June 11, 1918.

13 sums-SHEET 1.

" IIII mew.

H. A. w. W000.

MACHINE FOR FINISHING AND COOLING SIEHE OTYPE PLATES. APPLICATION mm APR. 6. 1906.

1,269,239., Patented Jun 11., 1918.

13 8HEETS--$HEET 8.

waikressea JITHIJEse wudj H. A. W. WOOD.

MACHINE FOR FINISHING AND COOLING SIEIIE OTYPE PLATES.

APPLICATION FILED APR. 6, I906.

Patented J iuw II IJIH.

I3 SHEETS--SHEET 9.

. Tum esses H. A. W. WOOD.

MACHINE FOR FINISHING AND COOLING STEREOTYPE PLATES.

' APPLICATION FILED APR. 6. I906- 1,%9,%9, Patented June 11. 1918.

,13 SHEETS-SHEET 10.

H. A. W. WOOD. MACHlNE FOR FINlSHlNG AND COOLING STEREOTYPE PLATES. APPLICATION FILED APR. e. 1906.

i3 SHEETSSHEET Il- Patented J une 11, 1918.

H. A. W. WOOD.

MACHINE FOR FINISHING AND COOLING STEREOTYPE PLATES.

APPLICATION HLED APR- 6. 906

w M m w L m a n w M e W mm m 1 v m M a/ N A M 9 3 9w 9 6 2 W H. A. W. WOOD. MACHINE FOR nmsmws AND comma SIEREOTYPE PLATES.

APPLICATION FILED APR- 6| I905. LQfiQhQEQM. Patented June 11, 1918.

I3 SHEETSMSHEET l3.

w t NM w i HENRY A. WIsE WOOILOF NEW YoRK,'N. Y., AssIeNoR, BY MEsNE ASSIGNMENTS, T

woon NEWSPAPER MAGHINERYCORPORATION, or NEW YORK, N. Y., A coRroRA- TION 0E VIRGINIA.

MACHINE EoR FINISHING A D cooLINe STEREOTYPE-PLATES.

Specification of Letters Patent. Patentefl June it, i911,

Application filed April 6, 1906. Serial No. 310,343.

. New York, in the county of New York and State of New York, have invented anew and useful Machine for Finishing and Coolmg is a specification. s

Modern newspaper printing is done on what is known as the rotary web press. In this machine the paper, in the form of a continuous web, is printedby'being drawn between two printing couples, each of which comprises an impression cylinder and a printing cylinder, one couple printin 'on one side of the web and the other coup e on th other'side of the web, the webgoin though each couple something as a han kerchief goes through therolls of a wringing-machine. The printing cylinder has attached thereto a number of the so-called stereotype printing plates, each plate corre ing Stereotype-Plates, of which the followprlnted. u r

In practice, the stereotype printing plate commercially used is a semi-cylindrical plate made of a metal known as stereotypemetal, which is a composition of lead, tin and antimony. The plate is made as follows: The type and cuts which correspond to the readingmatter of a newspaper page are set up in a flat form. A soft wet papier-mach matrix is then beaten on to this flat'form of type and dried in contact therewith, thus producing what is known as the matrix. This matrix is then bent intosemi-cylindr'ical form and placed in a casting-box, and a 'spondmg to a page of thenewspaper to be semi-cylindrical casting is made'therefrom in hot stereotype metal," forming the rough stereotype plate. This stereotype plate thus will have a replica of the flat form of type on its convex surface. The plate then has to be finished accurately for application to the printingcylinderof the press. By years of experience it has been found that the plate can be best finished while in a hot condition and while it is still plastic and flaccid. This finishing is begun by truing up the two parallel straight edges of the plate; The plate is then put in a cylinder and is rigidly clamped in position so that the convex type face of the late will be forced and squeezed against the'mside of the cylinder to conform to its inside, which is 'very accurately trued. Then the inside of the plate is trued out exactly cylindrical so that the plate will receive an absolutely cylindrical shape and will fit nicely on the printing cylinder.

The finished .plate then has to be cooled and should be cooled in such manner as to preserve accurately the truth of the convex printing surface and the finished edges and back. The plate'must be cooled,,becauseif applied hot to the press, the heat of the plate would distort the rolls which ink theplate.

Thus, accurate finishing and accurate co0l-- ing are necessary to make a stereotype printing plate, and the accuracy demanded can be well understood by remembering that printing surfaces, such as in half-tones, only vary two one-thousandths of an inch from each other in elevation. The thickness of a sheet of newspaper is of an inch.

In addition to the factor of accuracy, speed is an essential in the production of stereotype printing plates adapted for use in newspaper ofiices. The forms of type are kept open until the last moment to get the very last item of news possible, and then after the forms are closed the presses must only three one-thousandths be started inoperatiomwithout an instants delay. In the ordinary newspaper-office a number of presses are employed so that a number of plates must be made from the same matrix. Therefore accuracy and speed are the great factors. Prior to my invention of the autoplate, as shown in my Patent No. 721,117, dated February 17, 1903, the art of stereotyping was substantially a hand-practised art,- that is,

whilethree ,or. four machines were employed, the hot plates were carried-to andfromthese various machines by operators, and, after the finishing, the .plates' .were dipped into a trough or tank so that they would be cooled;

This trough or tank dipping was usually accomplished by hand. A finished stereo? type plate for the ordinary newspaper pa e weighs about forty-five pounds, and t e tit) labor involved in making stereotype plates can well be understood when it is stated that it often requires 2,600 plates to plate up the presses used in some large newspaper offices to print a Sunday edition. Prior to my invention of the autoplate, the art of stereotyping was the weak link in newspaper production. Machines, such as the .llnotypes, had been invented for rapidly setting up the forms of type, and the rotary web press had been brought to a high state of perfection, but the intermediate and necessary process of stereotyping was necessarily a hand-practised art. The autoplate completely revolutionized the art. It was the first machine by which stereotype printin plates were cast and finished automatically. It was a machine by which four of such plates could be finished per minute without any manual manipulation.

But the autoplate was not a complete machine. As will be seen by reference to Fig. 2 of Patent No. 721,117, the hot finished plates were deposited on a delivery stand H From this stand, workmen took the hot plates and dipped them into a tank to cool them, so that they could be then put on an elevator and carriedup to the press room. This, of course, was a, laborious operation and was objectionable, articularly because when the workman han led the hot plate, he was apt to distort the same as it was still mushy and he might not evenly plunge the same into the tank of water, leading to what is known as a -.shrink, or sprung plate which would print unevenly.

The purpose of the invention here disclosed is to obviate this defect and rapidly cool the plates after finishing in such mannor as to preserve the truth of the finished plates.

The following is a general description of the invention. The stereotype printing plates, while at a high temperature and still very soft or flaccid, are removed from the casting machine. They are then placed upon the receiving end of the machine, the lower edges of each plate resting upon a. series of parallel rollers forming a runway and inclined at such an angle that each plate will move by gravity to its successive positions. These rollers are designed to support the plates during their travel by their straight edges. The anti-friction rollers nearest the finishing arch are controlled by brakes, which are automatically released, so that the forward plate will run into this arch. As each plate moves from the receiving end of the machine into the arch, its straight edges are smoothed off or trimmed by cutters, these two finished straight edges thereafter forming supporting points for the plate. As the plate runs into the finishing arch, it engages two stops, which enaeaesa gagement automatically sets the finishing mechanism into operation. While in the finishing arch, the plate is supported on anti-friction rollers. The first operation is for the brackets supporting these rollers to move upwardly to clamp the plate against the smooth inside face of the arch or cylinder, thus impartin an exact semi-cylindrical shape to the p ate. While clamped in this position a knife revolves and trims off the inner concave side of the plate, thus producing an almost mathematically true semicylinder.

The forcible clamping of the soft plate against the inside of the arch while the shaving knife acts, gives the plate its exact shape and thickness. The action of the knife, which has a dulled edge, forces the soft plate to conform to the curvature of the arch and gives the plate its exact shape and thickness. This completes the accurate finishing of the plate, which however, is still in hot flaccid condition and extremely sensitive to distortion.

The rollers then move down and the stops are withdrawn out of the way, and the plate runs forward on anti-friction rollers into a spraying arch. As the plate runs into this spraying arch, it engages a lever which automatically opens a valve in the supply ipe so that a spray or sheet of water will e applied to both sides of the plate. When this application of the spray is-made, the plate is accurately supported on its straight edges on the anti-friction rollers, and this even application of the spray throughout the entire surface of the plate, while it is bein held in an undistorted condition, will exact y and correctly cool it, so that the truth of the finished plate will be preserved.

By 'these joint or coordinated operations, when the plate is taken from the machine at the delivery end of the machine it is finished and accurately cooled to correct shape and is ready for application to the printing cylinder of the rotary press. From this deation of finishing and cooling the plate is performed automatically with no attention from the operators other than the supply and removal of the plates. The truth. of the finished plate, both as to thickness and cylindrical conformation, is carefully and accurately established and preserved. The cooling mechanism by which the spray is applied is' accurately built so that the plate will be held on its straight edges and so that the spray will be evenly applied to the entire surface of the plate. The machine is automatic in operation and requires no attention from the operators, and the inevitable distortion of the plate which is incident to the constantly changed conditions hand regulation is eliminated.

caused by constructed in accordance with the Reference is to be had to the accompanying thirteen sheets of drawings in which, Figure lis aside elevation of a machine prmciples of my invention.

Fig. 2 is a plan of a portion thereof on an enlarged scale. y

Fig. 3 is an enlarged side elevation of parts shown in Fig. 1.

Fig. 4 is a sectional view on the line 4- 4 of Fig. 2. p

Fig. 5 is a sectional view on the line 5--5 of Fig. 2,'showing the parts at a different point in the cycle of operation.

Fig. 6 is a plan of a portion of the ma chine. i

Fig. 7 is a sectional view on the line 7-7 of Fig. 6, showing the parts in the same position as in Fig. 5. i i

Fig. 8 is a sectional view on the line 8-8 of Fig. 6. i

Fig. 9 is a sectional view on the line 99 of Fig. 6, with the arch of the machine re moved.

Fig. 10 is a side'elevation of the mechanism for controlling the stopping and starting of the machine, parts being shown in section. I

Fig. 11 is a plan of certain features illustrated in Fig. 10. i

Fig. 12 is a plan of another portion of the machine, parts being shown in section.

Fig. 13 is a side elevation of theportion of the machine illustrated inFig. 12 parts appearing in section, and

Fig. 14 is a sectional view on the line 14 14. of Fig; 12. I

For an idea of the general nature of the invention, reference is to be had to Fig. l which shows a frame 0 provided with an inclined bed or run-way a, for carrying stereotype plates.

" The machine is intended to be used chiefly in conjunction with a plurality of stereotype printing plate casting boxes, the product of which is placed by hand or otherwise on the upper end or saddle of the run-way or support 421.. These plates then move by gravity down the run-way to finishing mechanism by which their edges are first finished by cutters b, then they enter another'part 0 of the finishing mechanism in which their interior surfaces are shaved or dressed. From this point they pass to a cooler 03 and fro-m that they move out onto a table 6 from which they are then removed by hand or otherwise.

It is to be observed that on account of the incline of the run-way and on account of the fact that it is provided with anti-friction devices shown as in the form of a series of rollers 20, no positive feeding mechanism and no driving device'for feeding the plates or other blanks is necessary. The incline of the bed is such that the plates are readily stationary position and prevented from rotating, the plates are held and do not slide along the stationary surfaces of the rollers.

By finishing the plates as they are taken direct from the casting machines before they are cooled ofl, they are operated on by the finishing tools while in a comparatively soft state, and while held rigidly in the shaving arch. Then by taking them directly to the cooler, without handling or changing their direction of motion, and coolin them while their weight rests on true surfaces, practically all chance of distortion and defacement is eliminated. When thefinished plates are handled before cooling they are likely to become distorted or defaced by the handling. During the ordinary hand cooling process the plates are free to warp and 'twistout of shape owing to the uneven strains put upon them. By my procedure these difficulties are avoided. i

The saving in time and expense resulting from the alinement of the finishing and cooling mechanisms as specified in several of the clams is also important. It is well understood that the time required for producing a printing plate and getting it ready for printing is a very important matter in modern newspaper plants. These papers, being produced every day,and often in several editions a day, have to be pushed through with great rapidity, and the stereotyping is a part of the operation which usually limits the production of any particular plant, and seriously interferes with the rapid production of the newspapers. The result is that newspaper plants are obliged to have more stereotyping facilities than would otherwise be necessary in proportion to the capacity of their printing plant. This is very expensive and wasteful of room, and in many cases publishers do not see their way clear to pro vide sufiicient stereotyping facilities.

Power is applied to the machine for operating'the several parts thereof through a main shaft 21, this shaft being provided with a ulley, gear, or the like, for receiving power rom any desired source. 7

For the purpose ofdriving the trimming cutters, one of which is located on each side of the machine, I have shown a pulley 22 driven by the main shaft and provided with a belt 23 passing around pulleys 24 011 s indles 240 which support the cutters b. or the purpose of maintaining the belt or other driving connection in a taut condition, a tightening pulley 25 is mounted in engagement with the belt on a lever 26. This lever is normally forced into a position such that this pulley will keep the belt tight by means of a spring 27 mounted on a guide rod 28 connected with the lever and provided with a collar. .29 on which the spring bears. The tension of the spring can be adjusted by a threaded bushing 30.

It will be noted that the same belt passes from one side of the machine to the other and operates both cutters.

For the purpose of operating the part c of the finishing mechanism, I have mounted on the shaft 21 a wide-faced gear 31 meshing with a sliding gear 32 on a shaft 33. The gear 32 is rigidly connected with a clutch member 34 adapted to engage a clutch member 35 which is rigidly connected with a worm 36 rotatably mounted on the shaft 33. This worm operates a worm-wheel 37 on a shaft 38, the worm-wheel being rigidly connected with a gear 39 for operating a ear 40 on a shaft 41 which carries a shav ing blade 42. The operation of the shaving blade is obviously controlled by the position of the gear 32-.and clutch member 34.

For the purpose of operatin these elements to connect the shaving knife with the source of power and disconnect it therefrom, I have provided a collar 43 with which engages a yoke 44. This yoke is designed to be operated by a lever 45 which is connected by a link 46 shown in Fig. 10, with a lever 47. This lever is pivotally mounted on a stud 48 carried by a rocking lever 49 which is pivoted on a'stationary stud 50 on the frame of the machine. With the opposite arm of this lever is connected. an eccentric arm 51 mounted on a shaft 52 for the purpose of rocking the lever 49. In order to operate the shaft 52, the main shaft 21 is provided with a worm 53 driving a wormwheel 54 and a shaft 55. The shaft 55 drives the traverse shaft 52 by means of miter gears 57.

It will be seen that the eccentric arm 51 constantly rocks the lever 49 back and forth and as the lower end of the lever 47 is connected with the r'od 46, that end will ordinarily constitute the fulcrum of the lever and the upper end will vibrate idly. If, however, the upper end is arrested in its motion, the movement of the lever will take place from the upper end as the center and the lever 45 will be manipulated in one direction or the other, according to the side upon which the obstruction is applied to the lever 47.

For the purpose of controlling this matter, I have provided the lever 47 with a pinv 58 and on a pivoted arm 59 1 have mounted a pair of lugs 60 and 61. These lugs are located out o alinement with each other, the same being in such position that when the arm 59 is in the position shown in Fig. 10, the pin 58 will engage the lug 60 and motion will be transmitted to the clutch in such a way as to connect the clutch members and start the shaving knife. When, however, the arm 59 is turned downwardly, the

eeaeee this time it engages a movable stop, shown in the form of a pair of fingers, 62 and moves it from the dotted to the full line, position, which raises the arm 59 with which the stops are rigidly connected. The stops and arm are secured to a shaft 630.

In order to provide for moving the stops 'to the left when the shaving operation is (completed and allowing the plate to pass out of the finishing mechanism, I have pivots ally mounted on the shaft 630 levers 64 connected by a sleeve 63. These levers are each provided with a pin 65 adapted to engage a lug 66 on one of the stops 62. By moving the levers 64 backwardly on their pivots,

it will be seen that the. pins 65 will operate the stops to move them to the left and permit the plate to pass. I have shown the levers 64 as having arms engaging the rear surfaces of the stops and also as being provided withsprings 67 for forcing the stops to the front when the arms are in engagement with the stops to hold the stops in the dotted position.

For the purpose of manipulating the levers, I have connected the lower arms or one of them by means of a link 68 with a cam-roll 69 operated by a ooved cam 70. This cam is mounted on a s aft 71 which is engaged by a fork 72 on the rod 68, to keep the link in place. The shaft 71 is operated by a miter gear 73 on the shaft 38, meshing with a miter gear 74 on the shaft 71.

On the shaft 71 is also mounted a cam 75 operating a cam-roll 76 mounted on a rocking lever .77 which carries a frame 78 hearing one or more brakes 79 for the rollers 20 which are located nearest to y the shaving mechanism. It will be seen, therefore, that starting with the mechanism at rest, the incoming plate striking the stops 62 moves the latter and places the lug 60 in position,

to limit the motion of the pin 58 in one direction, thus causing the lever 47 to so operate as to throwin the clutch and start this mechanism into operation.

After the shaving action is completed, the cam 75 acts to apply the brakes to the rollers nearest the shaving mechanism so as to hold the next plate while the plate which is in the shaver is delivered therefrom. The stops 62 are then turned back to the left by the operation of the cam 70 as described, to allow the plate to run out of the shaver. The stops pass into the shaving part of the mechanism,

the clutch is automatically. thrown out and the shaving knife having completed one cycle stops in its'normal position.

It will be observed by reference to Figs.

. 4, and 7, that this partof the finishing device is shown in the form of a frame having a cavity 80. Inthis case, the cavity is cylindrical and the frame is in-the form of an arch. F or. the purpose of forcing the plate to be finished into this arch and seating it securely in position for the finishing operation of the shaver, I have provided the following mechanism:

On the shaft 38 are mounted two cams 81 and 82. One of these cams operates a roller arm 83 and the other a roller arm 84, these arms being located on shafts 85 and 86, respectively. On-the shaft 85, as shown in Fig. 7, is a gear segment 87 meshing with a rack 88- which slides toward and from the arch and carries a clamp 89. On this clamp is mounted a roller 90 for supporting one edge of the plate. The clamp is provided with a projection 91 working in a guide 92. It will be seen that this structure affords means for positively forcing the clamp to;

ward the arch and carrying the plate with it to a seat therein. On the opposite side of the frame, on which the plate is carried through the shaving mechanism, is a corresponding clamp 93 constructed in the same manner as the clamp 89 and sliding toward and from the arch. This clamp, however,

is not positively forced upward but is givena yielding thrust in that direction by means of springs 94 mounted on guide rods 95 which are adjustably connected by means of bushings 96 with a projection 98 on the frame. In order to normally depress the clamp 93 and prevent the springsfrom forcing it up when a plate is not iyr'position, I have'mounted a pair of forked arms '99 on the shaft 86. These arms normally press onplates 100 mounted on rods 101 whichcarry the frame 93. In operation, these parts are actuated when theplate engages the stops 62 and starts the shaft which operates the two shafts 85 and 86. The first motion of these parts is the upward motion of the rack 88 and then the withdrawal of the forked arms 99 from the plates 100 allowing the springs to force the clamp 93 upward while the gear segment positively forces the clamp89 up ward. It will be observed that if there is any irregularity in the length of the plates which are supplied to the machine, this will tions described. It will, of course, be underinto the plate and that the clamps recede, one operating by the return motion of the segment 87 and the other by the depression of the forked arms 99 against the plates 100,

, immediately after the shaver completes the operating part of its stroke. It is at this point that the brakes are applied to the rollers.

When the plate is released from the shaver it runs out on the rollers below it and into the cooler 03. This cooler is in the form of a shell having a chamber for receiving the plates or other articles to be operated upon. The outside of the shell is provided with a passage 103 having a plurality of openings for introducing water or other cooling fluid upon the outside of the plate. Inside the chamber is also located a plate 104 having a similar passage 105 for providing for cooling the inside of the stereotype plate. Both these passages are connected by pipes 106 with a supply pipe 107 having a valve or cock 108. With this cock is connected an arm 109, link 110 and a lever 111; This lever is pivoted on the frame and is provided with arms or dogs 112 located normally in the path of the end of a plate enterin the cooler. When the plate passes along t e rollers and engages these dogs, it moves the lever in opposition to the force of a spring 113 which normally holds the valve 108 closed and opens the valve so as topermit the cooling fluid to enter both cavities and cool both sides of the plate. It is desirable to leave the plate in the cooler as long a timeas is necessary for the finishing of a plate in the shaver, consequently I have provided movable stops 114, mounted on a shaft 115. An arm 116 is provided for swinging the stopsand this arm is connected by a link 117 with a lever 1181 This lever is pivotally mounted on the.

lever 118 moving in opposition to the spring 120,- and the plate in thecooler slides out onto the receiver 6 against a stationary stop 121. It will be seen, therefore, that each plate remains in the cooler until another plate is finished and delivered into aposition to enter the cooler. If the operator de-' sired to allow a plate to leave the cooler be fore another plate is delivered to it, or if no more plates are to be delivered, he can manipulate the lever 118 by a hand-operated slide 122. be accommodated by the yielding connec- The water or other cooling fluid applied to the plates is collected in a receptacle 123-and may be discharged in any desired way.

While I have illustrated and described a particular form of my invention in which curved stereotype plates are operated upon, it is to be understood that the invention is capable of employment for treatlng other forms of articles and that; many modifications may be made by'a person skilled in the art without departing from the scope of my invention as expressed inthe claims.

The complete operation of the mechanism is clear from the foregoing specific description and briefly is as follows A semi-cylindrical stereotype print ng plate is taken from the casting mechanism and is placed on the rollers 20 at the receiving end a of the machine. The plate may be as hot as it is possible to place the same in position. The plate then moves on the rollers20 until it comes in engagement with the rollers 20 nearest the finishing mechanism 0, which are controlled by the brakes 79. As the plate moves on the rollers 20, the same passes the cutters b?) and the straight edges of the plate are cut or trimmed ofi so as to be perfectly true. If there is no plate is), the finishing mechanism, or at the proper time in the cycle of operation, the brakes 7 9 are'released from the rollers 20 nearest the finishing mechanism and the plate continues its onward movement into the finishing mechanism until it strikes the dogs or stops i2and turns the lug 60 into the position shown in Fig. 10. As the shaft 52 is turn ing continuously, at the proper point in the cycle of operation, the clutch 34 will be thrown to engage the clutch 35, which will set the shafts 38, 4:1 and 71 into rotation. The mechanisms operated by these shafts then will lock the brakes 79 so that the next succeeding plate cannot enter the arch, will lock the first plate in the arch, and will hold the same in clamped position in the arch while the shaver trims and smooths out the interior of the plate.

As soon as this operation is completed, the

clamps will release and lower the plate and the dogs 62 will be moved to allow the plate to continue. its forward run. The brakes 7 9 will be released. The gearing is so arranged that the shafts 38, 41 and 71 make one complete revolution for each cycle of operation. Therefore, it will be noticed that the mechanism controlled by these three shafts only -is called into operation when there is a plate in the arch to be finished. If there is another plate following the first plate, the same will move into the arch after the first plate moves out of the same, where by the shafts 38, 41, and 71 will be again put into operation.

As the first plate moves forward from the arch, it moves into the cooling mechanism and as it passes into the cooling mech anism it turns on the water so that the plate will be sprayedwith waterand, cooled. The plate remains in the cooler, unless released by the operation of the handle 122, until 1,eee,eee

erat1on will be washed off.

By arranging the mechanism so that the semi-cylindrical plates will pass directly from the finishing mechanism to the cooling mechanism without intermediate manual manipulation, a most desirable result is obtained. The plates can be put into the finishing mechanism very shortly after they are cast, in a hot or plastic condition. As the plate passes into the finishing mechanism it is trued along its straight edges, then it is clamped by said finished straight edges and is finished while clamped by these straight edges. Then it passes from the finishing mechanism to the cooling mecha: nism by being guided on said straight edges on which it was clamped for the final finishing operation, and the cooling mechanism sets and hardens the plate so that it will retain and set in the exact shape it was brought to by the finishing mechanism. These important results are obtained in particular by causing the plate to pass directly, without manual manipulation, from the finishing mechanism to the cooling mechanism by causin it to travel in this path while supported on its finished straight edges.

The cooling mechanism herein shown and described is claimed in a divisional application filed by me April 23, 1910, Serial No. 557,106, in pursuance of a Patent Office requirement, and refiled August 31, 1915, Serial No. 46,560%-, and renewed November 2 1, 1917, No. 203,859.

Having thus fully described my invention, what I claim and desire to secure by Letters- Patent is 1. In a stereotype plate finishing machine, the combination of means for first finishing the plate, means for thereafter applying a cooling fluid to the plate, and a support arranged so that the plate will be directed from the finishing means to a position Where it maybe acted upon by the cooling means and the truth of the finished plate preserved.

2. In a stereotype plate finishing machine, the combination of a runway or guide along which semi-cylindrical plates can be guided on their straight edges, a finishing mechathe combination with a finishing devicehaving means for freely supporting a plate therein after it is finished, and a series of rollers arranged in alinement with said suporting means for receiving plates thererom, of a cooling arch located over said rollers and adapted to cool the plate as it passes along the same.

4:. In a stereotype printing plate treating machine, the combination of means for first finishingplates while hot, with means for cooling the plates after they have been finished wlthout handling or removing themfrom the machine. p

5. In a stereotype printing plate finishing machine, the combination of means for finishing a semi-cylindrical printing plate while hot and in a soft condition, means for supporting the plate on its straight edges on a sufliciently large number of points to preserve its accuracy, means arranged so down the incline guideway, a clamping mechanism, a shaving mechanlsm whereby the plate will be clampedand shaved on its concave surface, means for controlling the entrance of the plate into the clamping and shaving mechanism, and means for controlling the exit of a plate from said clamping and shaving mechanism.

In a stereotype plate finishing machine, the combination of an inclined guide-way along which a semi-cylindrical stereotype printing plate "can run on its straight edges, cutters for truing the straight edges of the plate, means for shaving the concave surfaces of the plate, means for applying a cooling liquid to the surface of the finished plate, and controlling means whereby the, plates will pass in succession down the inclined runway forthese operations.

8. In a stereotype plate finishing machine, the combination of a frame having aninclined runway thereon, a finishing device supported on the frame to which the runway leads, and means for stopping the plates in the finishing mechanism whilet-he same acts, which means'is released to allowthe plates to continue their forward run after being finished.

9. In a stereotype plate finishing machine, the combination of finishing means, and a run-way leading thereto, said run-way having. anti-friction devices for supporting stereotype plates and directing them to the finishing means, the run-way also being inclined at such an angle as to feed the plates by gravity when they rest freely on the anti-friction devices and hold the plates in stationary position when resting on stationary surfaces.

10. The combination of a finishin means, an inclined run-way leading to the finishing means, freely rotatable rollers located in said run-way for supporting articles to be finished, and'means for arresting the rotation of certain of said rollers.

11. In a, plate finishing machine, the combination of an arch for receiving the plates,

supports for the opposite edges of the plates, means for positively forcing one 0 said supports toward the arch, means for yieldingly forcing the other support toward the arch, and a shaft having connections for operating both of said means. 7

12. The combination of means for finishing-casts, a'movable stop located adjacent to said finishing means and adapted to be engaged by a cast, a freely rotatable roller located near the receiving end of the finishing means for feeding the casts into the finishing means, a brake for said roller, and means'for applying said brake.

13. The combination of a finishing means, a stop located near the discharge end of said finishing means, an operating shaft, means controlled by said stop for starting and stopping said shaft, a cam, means connected with said shaft for operating the cam, a freely rotatable roller for feeding unfinished articles to the finishing means, and a brake operable by said cam for stopplng the roller.

14. The combination of means for finishing casts, an inclined run-way leading the finishing means and adapted to casts thereto by gravity, means for stopping a cast while a preceding-cast moves out of the finishing means, and means connected with said stopping means for starting the finishing means into operation.

15. In a stereotype plate finishing machine, the combination of a plate shaver, means for guiding plates thereto, a movable stop, and means controlled by said stop for starting the finishing means when a plate is moved into engagement with said stop.

16. In'a stereotype plate finishing machine, the combination of a plate shaver, a movable stop, a shaft adapted to operate the plate shaver, a clutch connected with said shaft for connecting it with, and disconnecting it from, a source of power, a

lever for operating said clutch, and means connected with said stop for controlling the operation of said lever.

17. In a stereotype plate finishing machine, the combination of a.plate shaver, a movable stop located adjacent to said shaver in the path of the stereotype plates, an arm connected with said stop, said arm having two lugs thereon spaced apart and 

